Another Logic in Architectural Design and Fabrication - Lessons From The Living Prototypes Project

Martin Tamke; Tzu-Ying Chen; Oriol Carrasco; Áine  Ryan; Dunya  Bouchi; Mette Ramsgaard Thomsen; Paul Nicholas; Alexandre  Dubor; Edouard  Cabay; Alma Bangsgaard Svendsen; Moritz  Dörstelmann; Lapo Naldoni; Areti  Markopoulou; Jan Knippers

doi:https://zenodo.org/record/8186841

Another Logic in Architectural Design and Fabrication - Lessons From The Living Prototypes Project

Martin Tamke, Tzu-Ying Chen, Oriol Carrasco, Áine Ryan, Dunya Bouchi, Mette Ramsgaard Thomsen, Paul Nicholas, Alexandre Dubor, Edouard Cabay, Alma Bangsgaard Svendsen, Moritz Dörstelmann, Lapo Naldoni, Areti Markopoulou, Jan Knippers

Publications: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

Abstract

This paper argues for the transformative potential of biomaterials in architecture and highlights the need to recognize their impact on professional practice. Insights are drawn from an 18-month European research project involving three teams of academic and industry partners. The project aimed to scale up cutting-edge technologies in 3D-printed earth, flax-fiber winding, and biopolymer printing, exploring the potential and challenges of natural and biobased recycled materials combined with digital fabrication techniques. The project culminated in a 1:1 scale prototype of a living space, digitally fabricated and exhibited at the Aedes Architecture Forum in Berlin. The evaluation of the process and result shows how the strong material behaviour, temporality and heterogeneity of biomaterials required the teams to radically rethink processes of fabrication, assembly, tolerances, and joints between material systems as well, as the materials malleability provided opportunities for adaptation and caretaking. The project demonstrates the importance of digital techniques in the design and fabrication of biobased materials, including additive manufacturing, sensing, data collection, and machine learning. The paper identifies detailed lessons and practice-based methods for the shift towards natural, biodegradable, and recyclable materials- These call to rethink standardisation in the building industry, as digital technologies provide means to adapt design and fabrication to the heterogeneities of biomaterials and challenge the current practice of optimisation for minimal material usage in design as resource-efficient use of biomaterials needs to include more complex considerations of local ecology, the speed of natural growth and processing, dynamic environmental conditions, agricultural policies and cultures.

Original language	English
Title of host publication	Proceedings for the CEES 2023 Conference,
Editors	M. Theodoridou Morrow, R. Scott, J. Bridgens, B. Funchal
Number of pages	10
Place of Publication	Portugal
Publication date	30 Jun 2023
DOIs	https://doi.org/https://zenodo.org/record/8186841
Publication status	Published - 30 Jun 2023
Event	CEES 2023 - International Conference on Construction, Energy, Environment and Sustainability : Session TS03: WHERE NEXT WITH BIOMATERIALS AND BIOTECHNOLOGY FOR THE BUILT ENVIRONMENT? - Itecons (Institute for Research and Technological Development for Construction, Energy, Environment and Sustainability) , Coimbra, Portugal Duration: 27 Jun 2023 → 30 Jun 2023 https://www.cees2023.uc.pt/projectos/cees2023/index.php?module=sec&id=954&f=1

Conference

Conference	CEES 2023 - International Conference on Construction, Energy, Environment and Sustainability
Location	Itecons (Institute for Research and Technological Development for Construction, Energy, Environment and Sustainability)
Country/Territory	Portugal
City	Coimbra
Period	27/06/2023 → 30/06/2023
Internet address	https://www.cees2023.uc.pt/projectos/cees2023/index.php?module=sec&id=954&f=1

Keywords

Bio-Material-Systems
Interdisciplinary research
Methodology
3D Print
Natural Fibres
Building with Earth
Recycled Materials

Artistic research

No

Access to Document

https://zenodo.org/record/8186841

Cite this

Tamke, M., Chen, T.-Y., Carrasco, O., Ryan, Á., Bouchi, D., Ramsgaard Thomsen, M., Nicholas, P., Dubor, A., Cabay, E., Svendsen, A. B., Dörstelmann, M., Naldoni, L., Markopoulou, A., & Knippers, J. (2023). Another Logic in Architectural Design and Fabrication - Lessons From The Living Prototypes Project. In M. Theodoridou Morrow, R. Scott, J. Bridgens, & B. Funchal (Eds.), Proceedings for the CEES 2023 Conference, https://doi.org/https://zenodo.org/record/8186841

@inproceedings{6788160e129e43309eeeda0133e09969,

title = "Another Logic in Architectural Design and Fabrication - Lessons From The Living Prototypes Project",

abstract = "This paper argues for the transformative potential of biomaterials in architecture and highlights the need to recognize their impact on professional practice. Insights are drawn from an 18-month European research project involving three teams of academic and industry partners. The project aimed to scale up cutting-edge technologies in 3D-printed earth, flax-fiber winding, and biopolymer printing, exploring the potential and challenges of natural and biobased recycled materials combined with digital fabrication techniques. The project culminated in a 1:1 scale prototype of a living space, digitally fabricated and exhibited at the Aedes Architecture Forum in Berlin. The evaluation of the process and result shows how the strong material behaviour, temporality and heterogeneity of biomaterials required the teams to radically rethink processes of fabrication, assembly, tolerances, and joints between material systems as well, as the materials malleability provided opportunities for adaptation and caretaking. The project demonstrates the importance of digital techniques in the design and fabrication of biobased materials, including additive manufacturing, sensing, data collection, and machine learning. The paper identifies detailed lessons and practice-based methods for the shift towards natural, biodegradable, and recyclable materials- These call to rethink standardisation in the building industry, as digital technologies provide means to adapt design and fabrication to the heterogeneities of biomaterials and challenge the current practice of optimisation for minimal material usage in design as resource-efficient use of biomaterials needs to include more complex considerations of local ecology, the speed of natural growth and processing, dynamic environmental conditions, agricultural policies and cultures.",

keywords = "Bio-Material-Systems, Interdisciplinary research, Methodology, 3D Print, Natural Fibres, Building with Earth, Recycled Materials",

author = "Martin Tamke and Tzu-Ying Chen and Oriol Carrasco and {\'A}ine Ryan and Dunya Bouchi and {Ramsgaard Thomsen}, Mette and Paul Nicholas and Alexandre Dubor and Edouard Cabay and Svendsen, {Alma Bangsgaard} and Moritz D{\"o}rstelmann and Lapo Naldoni and Areti Markopoulou and Jan Knippers",

year = "2023",

month = jun,

day = "30",

doi = "https://zenodo.org/record/8186841",

language = "English",

editor = "{Theodoridou Morrow}, { M. } and R. Scott and J. Bridgens and Funchal, {B. }",

booktitle = "Proceedings for the CEES 2023 Conference,",

note = "CEES 2023 - International Conference on Construction, Energy, Environment and Sustainability : Session TS03: WHERE NEXT WITH BIOMATERIALS AND BIOTECHNOLOGY FOR THE BUILT ENVIRONMENT?, CEES 2023 ; Conference date: 27-06-2023 Through 30-06-2023",

url = "https://www.cees2023.uc.pt/projectos/cees2023/index.php?module=sec&id=954&f=1",

}

Tamke, M, Chen, T-Y, Carrasco, O, Ryan, Á, Bouchi, D, Ramsgaard Thomsen, M , Nicholas, P, Dubor, A, Cabay, E, Svendsen, AB, Dörstelmann, M, Naldoni, L, Markopoulou, A & Knippers, J 2023, Another Logic in Architectural Design and Fabrication - Lessons From The Living Prototypes Project. in M Theodoridou Morrow, R Scott, J Bridgens & B Funchal (eds), Proceedings for the CEES 2023 Conference,. Portugal, CEES 2023 - International Conference on Construction, Energy, Environment and Sustainability , Coimbra, Portugal, 27/06/2023. https://doi.org/https://zenodo.org/record/8186841

Another Logic in Architectural Design and Fabrication - Lessons From The Living Prototypes Project. / Tamke, Martin; Chen, Tzu-Ying; Carrasco, Oriol et al.
Proceedings for the CEES 2023 Conference,. ed. / M. Theodoridou Morrow; R. Scott; J. Bridgens; B. Funchal. Portugal, 2023.

Publications: Chapter in Book/Report/Conference proceeding › Article in proceedings › Research › peer-review

TY - GEN

T1 - Another Logic in Architectural Design and Fabrication - Lessons From The Living Prototypes Project

AU - Tamke, Martin

AU - Chen, Tzu-Ying

AU - Carrasco, Oriol

AU - Ryan, Áine

AU - Bouchi, Dunya

AU - Ramsgaard Thomsen, Mette

AU - Nicholas, Paul

AU - Dubor, Alexandre

AU - Cabay, Edouard

AU - Svendsen, Alma Bangsgaard

AU - Dörstelmann, Moritz

AU - Naldoni, Lapo

AU - Markopoulou, Areti

AU - Knippers, Jan

PY - 2023/6/30

Y1 - 2023/6/30

N2 - This paper argues for the transformative potential of biomaterials in architecture and highlights the need to recognize their impact on professional practice. Insights are drawn from an 18-month European research project involving three teams of academic and industry partners. The project aimed to scale up cutting-edge technologies in 3D-printed earth, flax-fiber winding, and biopolymer printing, exploring the potential and challenges of natural and biobased recycled materials combined with digital fabrication techniques. The project culminated in a 1:1 scale prototype of a living space, digitally fabricated and exhibited at the Aedes Architecture Forum in Berlin. The evaluation of the process and result shows how the strong material behaviour, temporality and heterogeneity of biomaterials required the teams to radically rethink processes of fabrication, assembly, tolerances, and joints between material systems as well, as the materials malleability provided opportunities for adaptation and caretaking. The project demonstrates the importance of digital techniques in the design and fabrication of biobased materials, including additive manufacturing, sensing, data collection, and machine learning. The paper identifies detailed lessons and practice-based methods for the shift towards natural, biodegradable, and recyclable materials- These call to rethink standardisation in the building industry, as digital technologies provide means to adapt design and fabrication to the heterogeneities of biomaterials and challenge the current practice of optimisation for minimal material usage in design as resource-efficient use of biomaterials needs to include more complex considerations of local ecology, the speed of natural growth and processing, dynamic environmental conditions, agricultural policies and cultures.

AB - This paper argues for the transformative potential of biomaterials in architecture and highlights the need to recognize their impact on professional practice. Insights are drawn from an 18-month European research project involving three teams of academic and industry partners. The project aimed to scale up cutting-edge technologies in 3D-printed earth, flax-fiber winding, and biopolymer printing, exploring the potential and challenges of natural and biobased recycled materials combined with digital fabrication techniques. The project culminated in a 1:1 scale prototype of a living space, digitally fabricated and exhibited at the Aedes Architecture Forum in Berlin. The evaluation of the process and result shows how the strong material behaviour, temporality and heterogeneity of biomaterials required the teams to radically rethink processes of fabrication, assembly, tolerances, and joints between material systems as well, as the materials malleability provided opportunities for adaptation and caretaking. The project demonstrates the importance of digital techniques in the design and fabrication of biobased materials, including additive manufacturing, sensing, data collection, and machine learning. The paper identifies detailed lessons and practice-based methods for the shift towards natural, biodegradable, and recyclable materials- These call to rethink standardisation in the building industry, as digital technologies provide means to adapt design and fabrication to the heterogeneities of biomaterials and challenge the current practice of optimisation for minimal material usage in design as resource-efficient use of biomaterials needs to include more complex considerations of local ecology, the speed of natural growth and processing, dynamic environmental conditions, agricultural policies and cultures.

KW - Bio-Material-Systems

KW - Interdisciplinary research

KW - Methodology

KW - 3D Print

KW - Natural Fibres

KW - Building with Earth

KW - Recycled Materials

UR - https://www.cees2023.uc.pt/projectos/cees2023/atas/pdfs/ID149.pdf

U2 - https://zenodo.org/record/8186841

DO - https://zenodo.org/record/8186841

M3 - Article in proceedings

BT - Proceedings for the CEES 2023 Conference,

A2 - Theodoridou Morrow, M.

A2 - Scott, R.

A2 - Bridgens, J.

A2 - Funchal, B.

CY - Portugal

T2 - CEES 2023 - International Conference on Construction, Energy, Environment and Sustainability

Y2 - 27 June 2023 through 30 June 2023

ER -

Another Logic in Architectural Design and Fabrication - Lessons From The Living Prototypes Project

Abstract

Conference

Keywords

Artistic research

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